p4est  2.8.7
p4est is a software library for parallel adaptive mesh refinement.
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p4est_algorithms.h
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1 /*
2  This file is part of p4est.
3  p4est is a C library to manage a collection (a forest) of multiple
4  connected adaptive quadtrees or octrees in parallel.
5 
6  Copyright (C) 2010 The University of Texas System
7  Additional copyright (C) 2011 individual authors
8  Written by Carsten Burstedde, Lucas C. Wilcox, and Tobin Isaac
9 
10  p4est is free software; you can redistribute it and/or modify
11  it under the terms of the GNU General Public License as published by
12  the Free Software Foundation; either version 2 of the License, or
13  (at your option) any later version.
14 
15  p4est is distributed in the hope that it will be useful,
16  but WITHOUT ANY WARRANTY; without even the implied warranty of
17  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18  GNU General Public License for more details.
19 
20  You should have received a copy of the GNU General Public License
21  along with p4est; if not, write to the Free Software Foundation, Inc.,
22  51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
23 */
24 
33 #ifndef P4EST_ALGORITHMS_H
34 #define P4EST_ALGORITHMS_H
35 
36 #include <p4est_extended.h>
37 
38 SC_EXTERN_C_BEGIN;
39 
43 sc_mempool_t *p4est_quadrant_mempool_new (void);
44 
51 void p4est_quadrant_init_data (p4est_t * p4est,
52  p4est_topidx_t which_tree,
53  p4est_quadrant_t * quad,
54  p4est_init_t init_fn);
55 
60 void p4est_quadrant_free_data (p4est_t * p4est,
61  p4est_quadrant_t * quad);
62 
71 unsigned p4est_quadrant_checksum (sc_array_t * quadrants,
72  sc_array_t * checkarray,
73  size_t first_quadrant);
74 
90 int p4est_quadrant_in_range (const p4est_quadrant_t * fd,
91  const p4est_quadrant_t * ld,
92  const p4est_quadrant_t *
93  quadrant);
94 
99 int p4est_tree_is_sorted (p4est_tree_t * tree);
100 
105 int p4est_tree_is_linear (p4est_tree_t * tree);
106 
111 int p4est_tree_is_complete (p4est_tree_t * tree);
112 
118 int p4est_tree_is_almost_sorted (p4est_tree_t * tree,
119  int check_linearity);
120 
135 void p4est_tree_print (int log_priority, p4est_tree_t * tree);
136 
143 int p4est_is_equal (p4est_t * p4est1, p4est_t * p4est2,
144  int compare_data);
145 
157 int p4est_is_valid (p4est_t * p4est);
158 
177 void p4est_tree_compute_overlap (p4est_t * p4est,
178  sc_array_t * in,
179  sc_array_t * out,
180  p4est_connect_type_t balance,
181  sc_array_t * borders,
182  sc_array_t * inseeds);
183 
188 void p4est_tree_uniqify_overlap (sc_array_t * out);
189 
195 size_t p4est_tree_remove_nonowned (p4est_t * p4est,
196  p4est_topidx_t which_tree);
197 
217 void p4est_complete_region (p4est_t * p4est,
218  const p4est_quadrant_t * q1,
219  int include_q1,
220  const p4est_quadrant_t * q2,
221  int include_q2,
222  p4est_tree_t * tree,
223  p4est_topidx_t which_tree,
224  p4est_init_t init_fn);
225 
236 void p4est_complete_subtree (p4est_t * p4est,
237  p4est_topidx_t which_tree,
238  p4est_init_t init_fn);
239 
248 void p4est_balance_subtree (p4est_t * p4est,
249  p4est_connect_type_t btype,
250  p4est_topidx_t which_tree,
251  p4est_init_t init_fn);
252 
253 void p4est_balance_border (p4est_t * p4est,
254  p4est_connect_type_t btype,
255  p4est_topidx_t which_tree,
256  p4est_init_t init_fn,
257  p4est_replace_t replace_fn,
258  sc_array_t * borders);
259 
269 size_t p4est_linearize_tree (p4est_t * p4est,
270  p4est_tree_t * tree);
271 
291 p4est_locidx_t p4est_partition_correction (p4est_gloidx_t *
292  partition,
293  int num_procs,
294  int rank,
295  p4est_gloidx_t
296  min_quadrant_id,
297  p4est_gloidx_t
298  max_quadrant_id);
299 
311 p4est_gloidx_t p4est_partition_for_coarsening (p4est_t * p4est,
312  p4est_locidx_t *
313  num_quadrants_in_proc);
314 
325 int p4est_next_nonempty_process (int rank,
326  int num_procs,
327  p4est_locidx_t *
328  num_quadrants_in_proc);
329 
340 p4est_gloidx_t p4est_partition_given (p4est_t * p4est,
341  const p4est_locidx_t *
342  num_quadrants_in_proc);
343 
354 int p4est_quadrant_on_face_boundary (p4est_t * p4est,
355  p4est_topidx_t treeid,
356  int face,
357  const p4est_quadrant_t *
358  q);
359 
360 SC_EXTERN_C_END;
361 
362 #endif /* !P4EST_ALGORITHMS_H */
p4est_init_t
void(* p4est_init_t)(p4est_t *p4est, p4est_topidx_t which_tree, p4est_quadrant_t *quadrant)
Callback function prototype to initialize the quadrant's user data.
Definition: p4est.h:217
p4est_quadrant_in_range
int p4est_quadrant_in_range(const p4est_quadrant_t *fd, const p4est_quadrant_t *ld, const p4est_quadrant_t *quadrant)
Report whether a quadrant fits into the limits of a quadrant range.
p4est_linearize_tree
size_t p4est_linearize_tree(p4est_t *p4est, p4est_tree_t *tree)
Remove overlaps from a sorted list of quadrants.
p4est_is_valid
int p4est_is_valid(p4est_t *p4est)
Check a forest for validity and allreduce the result.
p4est_tree_print
void p4est_tree_print(int log_priority, p4est_tree_t *tree)
Print the quadrants in a tree.
p4est_is_equal
int p4est_is_equal(p4est_t *p4est1, p4est_t *p4est2, int compare_data)
Locally check forest/connectivity structures for equality.
p4est_quadrant_checksum
unsigned p4est_quadrant_checksum(sc_array_t *quadrants, sc_array_t *checkarray, size_t first_quadrant)
Computes a machine-independent checksum of a list of quadrants.
p4est_tree_is_linear
int p4est_tree_is_linear(p4est_tree_t *tree)
Test if a tree is sorted in Morton ordering and linear.
p4est_tree_is_almost_sorted
int p4est_tree_is_almost_sorted(p4est_tree_t *tree, int check_linearity)
Check if a tree is sorted/linear except for diagonally outside corners.
p4est_next_nonempty_process
int p4est_next_nonempty_process(int rank, int num_procs, p4est_locidx_t *num_quadrants_in_proc)
Find next non-empty process.
p4est_tree_uniqify_overlap
void p4est_tree_uniqify_overlap(sc_array_t *out)
Gets the reduced representation of the overlap that results from using p4est_tree_compute_overlap_new...
p4est_quadrant_init_data
void p4est_quadrant_init_data(p4est_t *p4est, p4est_topidx_t which_tree, p4est_quadrant_t *quad, p4est_init_t init_fn)
Alloc and initialize the user data of a valid quadrant.
p4est_complete_region
void p4est_complete_region(p4est_t *p4est, const p4est_quadrant_t *q1, int include_q1, const p4est_quadrant_t *q2, int include_q2, p4est_tree_t *tree, p4est_topidx_t which_tree, p4est_init_t init_fn)
Constructs a minimal linear octree between two octants.
p4est_partition_given
p4est_gloidx_t p4est_partition_given(p4est_t *p4est, const p4est_locidx_t *num_quadrants_in_proc)
Partition p4est given the number of quadrants per proc.
p4est_tree_is_sorted
int p4est_tree_is_sorted(p4est_tree_t *tree)
Test if a tree is sorted in Morton ordering.
p4est_partition_correction
p4est_locidx_t p4est_partition_correction(p4est_gloidx_t *partition, int num_procs, int rank, p4est_gloidx_t min_quadrant_id, p4est_gloidx_t max_quadrant_id)
Compute correction of partition for a process.
p4est_quadrant_free_data
void p4est_quadrant_free_data(p4est_t *p4est, p4est_quadrant_t *quad)
Free the user data of a valid quadrant.
p4est_balance_subtree
void p4est_balance_subtree(p4est_t *p4est, p4est_connect_type_t btype, p4est_topidx_t which_tree, p4est_init_t init_fn)
Balances a sorted tree within a p4est.
p4est_tree_is_complete
int p4est_tree_is_complete(p4est_tree_t *tree)
Test if a tree is sorted in Morton ordering and complete.
p4est_partition_for_coarsening
p4est_gloidx_t p4est_partition_for_coarsening(p4est_t *p4est, p4est_locidx_t *num_quadrants_in_proc)
Correct partition counters to allow one level of coarsening.
p4est_tree_compute_overlap
void p4est_tree_compute_overlap(p4est_t *p4est, sc_array_t *in, sc_array_t *out, p4est_connect_type_t balance, sc_array_t *borders, sc_array_t *inseeds)
Compute the overlap of a number of insulation layers with a tree.
p4est_quadrant_mempool_new
sc_mempool_t * p4est_quadrant_mempool_new(void)
Create a memory pool for quadrants that initializes compiler padding.
p4est_tree_remove_nonowned
size_t p4est_tree_remove_nonowned(p4est_t *p4est, p4est_topidx_t which_tree)
Removes quadrants that are outside the owned tree boundaries from a tree.
p4est_complete_subtree
void p4est_complete_subtree(p4est_t *p4est, p4est_topidx_t which_tree, p4est_init_t init_fn)
Completes a sorted tree within a p4est.
p4est_quadrant_on_face_boundary
int p4est_quadrant_on_face_boundary(p4est_t *p4est, p4est_topidx_t treeid, int face, const p4est_quadrant_t *q)
Checks if a quadrant's face is on the boundary of the forest.
p4est_topidx_t
int32_t p4est_topidx_t
Typedef for counting topological entities (trees, tree vertices).
Definition: p4est_base.h:93
p4est_locidx_t
int32_t p4est_locidx_t
Typedef for processor-local indexing of quadrants and nodes.
Definition: p4est_base.h:106
p4est_gloidx_t
int64_t p4est_gloidx_t
Typedef for globally unique indexing of quadrants.
Definition: p4est_base.h:118
p4est_connect_type_t
p4est_connect_type_t
Characterize a type of adjacency.
Definition: p4est_connectivity.h:113
p4est_extended.h
Interface routines with extended capabilities.
p4est_replace_t
void(* p4est_replace_t)(p4est_t *p4est, p4est_topidx_t which_tree, int num_outgoing, p4est_quadrant_t *outgoing[], int num_incoming, p4est_quadrant_t *incoming[])
Callback function prototype to replace one set of quadrants with another.
Definition: p4est_extended.h:111
p4est_quadrant
The 2D quadrant datatype.
Definition: p4est.h:76
p4est_tree
The p4est tree datatype.
Definition: p4est.h:129
p4est
The p4est forest datatype.
Definition: p4est.h:150